Anti-leakage current flood system / Muhammad Haziq Ikram Azlan

The increasing frequency and intensity of flooding events necessitate innovative solutions for mitigating potential risks and minimizing damage to critical infrastructure. This thesis presents the development and implementation of an Anti-Leakage Current Flood System, designed to enhance flood prepa...

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書誌詳細
第一著者: Azlan, Muhammad Haziq Ikram
フォーマット: Student Project
言語:English
出版事項: 2024
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オンライン・アクセス:https://ir.uitm.edu.my/id/eprint/97697/1/97697.pdf
https://ir.uitm.edu.my/id/eprint/97697/
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要約:The increasing frequency and intensity of flooding events necessitate innovative solutions for mitigating potential risks and minimizing damage to critical infrastructure. This thesis presents the development and implementation of an Anti-Leakage Current Flood System, designed to enhance flood preparedness and response mechanisms. The system utilizes a NodeMCU v3 controller as the central processing unit, integrating an ultrasonic sensor for real-time water level monitoring. Upon detection of rising water levels, the system employs a color-coded LED display (red, yellow, green) with corresponding indicators on an I2C LCD, offering a clear visual representation of the flood severity. In tandem, a 5V relay module ensures the swift disconnection of the electric supply to prevent electrical hazards during flood events. The integration of a mobile notification system further enhances the system's effectiveness by alerting users to imminent danger and facilitating timely evacuation and precautionary measures. The project also emphasizes the importance of robust testing and calibration to ensure accurate water level readings, along with considerations for power supply backups to maintain system functionality during power outages. Additionally, the thesis explores possibilities for remote monitoring, allowing users to access real-time status updates and notifications through a user-friendly interface. This research contributes to the field of flood management by providing an efficient and proactive solution that enhances community resilience and safety. The documentation accompanying this thesis includes a comprehensive guide for system implementation, calibration, and maintenance, ensuring its accessibility to users and facilitating future developments in flood management technology